Practical Math

Page 1

Measurements are used in every workplace. It is often necessary to convert units of measure in order to add, subtract, multiply, and divide measurements. Many times a conversion factor or a conversion table may need to be used.

OBJECTIVES

KEY TERMS

1. Define unit of measure. 2. List the basic units of measure used in the U. S. customary system of measurement. 3. List the basic units of measure used in the metric system of measurement. 4. Explain how length is measured. 5. Explain how area is measured. 6. Explain how volume is measured. 7. Explain how capacity is measured. 8. Explain how weight and mass are measured. 9. List four scales used to measure temperature. 10. Convert measurements to lower units of measure. 11. Convert measurements to higher units of measure. 12. Convert measurements between two systems of measurement. 13. Convert temperature between two systems of measurement. 14. Add and subtract units of measure. 15. Multiply and divide units of measure.

• • • • • • • • • • • •

Digital Resources ATPeResources.com/QuickLinks Access Code:

unit of measure length area acre hectare volume capacity weight mass temperature absolute zero conversion factor


156 PRACTICAL MATH

SECTION 6-1

UNDERSTANDING UNITS OF MEASURE

Measurements may be composed of single or multiple units of measure. A unit of measure is a standard by which a quantity is measured. See Figure 6-1. A single unit of measure can be Units of Measure converted to different units of measure without changing value. For 4 mi 2 hr, 40 min example, 15 in. = 1 ft, 3 in. In addition, conversions can be made from 144 sq in. 3 gal., 2 qt, 1 pt one measurement system to another. SINGLE UNIT OF MEASURE MULTIPLE UNITS OF MEASURE Two common measurement systems are the U.S. customary Figure 6-1. Measurements may be composed of single or multiple units of system and the metric system. The U.S. customary system uses the measure. following as basic units of measure: inch (in. or ″ ), foot (ft or ′ ), pint (pt), quart (qt), gallon (gal.), ounce (oz), and pound (lb). See Figure 6-2.

LENGTH

AREA

U.S. liquid measure

VOLUME

U.S. dry measure

CAPACITY

WEIGHT

MASS

avoirdupois

Converting Units of Measure within the U.S. Customary System

U.S. Customary System of Measurement

troy

MASTER MATH®

Unit

Abbr

Equivalents

mile

mi

5280′, 1760 yd

yard

yd

foot

ft or ′

3′, 36″ 12″, 0.333 yd

inch

in. or ″

0.083′, 0.028 yd

square mile acre

sq mi or mi2 A

640 A 4840 sq yd, 43,560 sq ft

square yard

sq yd or yd2

1296 sq in., 9 sq ft

square foot square inch

sq ft or ft2 sq in. or in2

144 sq in., 0.111 sq yd 0.0069 sq ft, 0.00077 sq yd

cubic yard

cu yd or yd3

27 cu ft, 46,656 cu in.

cubic foot

cu ft or ft3

1728 cu in., 0.0370 cu yd

cubic inch

cu in. or in3

0.00058 cu ft, 0.000021 cu yd

gallon

gal.

4 qt, 128 fl oz (231 cu in.)

quart

qt

2 pt, 32 fl oz (57.75 cu in.)

pint

pt

16 fl oz (28.875 cu in.)

fluid ounce

fl oz

0.0625 pt (1.805 cu in.)

bushel

bu

4 pk (2150.42 cu in.)

peck

pk

8 qt (537.605 cu in.)

quart

qt

2 pt (67.201 cu in.)

pint

pt

0.5 qt (33.600 cu in.) 2000 lb

ton

t

pound

lb or #

16 oz

ounce

oz

0.0625 lb

troy pound

lb t

12 oz t

troy ounce

oz t

20 dwt or 480 gr

pennyweight

dwt or pwt

grain

gr

24 gr 0.04 dwt

Figure 6-2. The U.S. customary system of measurement uses inches, feet, pints, quarts, gallons, ounces, and pounds.


Chapter 6 – Working with Measurements 157

The metric system is the most commonly used measurement system in the world. This system is based on the meter (m), liter (L), and kilogram (kg). See Figure 6-3. Prefixes are used in the metric system to represent multipliers. For example, when the prefix kilo (k), meaning 1000, is added to the root word “meter,” the result is 1000 meters, or 1 kilometer. Metric System of Measurement LENGTH

Unit

Abbr

Equivalents

kilometer

km

1000 m

meter

m

100 cm

centimeter

cm

10 mm

millimeter

mm

0.1 cm

square kilometer

sq km or km2

1,000,000 m2

hectare

ha

10,000 m2

square meter

sq m or m2

10,000 cm2

square centimeter

sq cm or cm2

100 mm2

cubic meter

m

1,000,000 cm3

cubic centimeter

cu cm, cm , or cc

kiloliter

kL

1000 L

liter

L

1000 mL

milliliter

mL

0.001 L

kilogram

kg

1000 g

gram

g

100 cg, 1000 mg

AREA

VOLUME

MASTER MATH®

CAPACITY

MASS

3

0.000001 m3

3

centigram

cg

10 mg

milligram

mg

0.1 cg, 0.001 g

Figure 6-3. The metric system of measurement uses meters, liters, and grams.

The U.S. customary system of measurement and the metric system of measurement use different standard units for determining length, area, volume, weight or mass, and temperature.

METER DECIMETER 1

2

3

4

5

6

7

8

9

10

11

96

97

98

1 CENTIMETER

MILLIMETER

A meter is divided into decimeters, centimeters, and millimeters.

99

100

Converting Units of Measure within the Metric System


158 PRACTICAL MATH

Length Length is distance expressed in linear measure. Length is used to measure an object or a distance between objects. In the U.S. customary system, common units for expressing length are the inch (in. or ″ ), foot (ft or ′ ), and mile (mi). In the metric system, the basic unit for expressing length is the meter (m). Smaller units of measure such as the millimeter (mm), centimeter (cm), and kilometer (km) are also used. See Figure 6-4.

Length

Area

ENGLISH SYSTEM

Area is space as expressed in square units. See Figure 6-5. LENGTH In the U.S. customary system, the common units for expressing area are the square inch (sq in.), square 35.56 cm foot (sq ft), and square mile (sq mi). To express area in the metric system, a superscript “2” is added to METRIC SYSTEM the unit used for expressing length, such as in square Figure 6-4. Length is distance expressed in linear measure. meters (m2). 14

Area U.S. CUSTOMARY SYSTEM

AREA A= l ×w where A = area l = length w = width

7.62 cm

14

A = l ×w A = 14 × 3 A = 42 sq

in.

LENGTH WIDTH 35.56 cm 3

METRIC SYSTEM A = l ×w A = 35.56 × 7.62 A = 270.97 cm2

Figure 6-5. Area is space expressed in square units.

In the U.S. customary system, the acre is used to measure large areas of land. An acre is an area of land containing 43,560 sq ft. In the metric system, the hectare is used. A hectare is an area of land containing 10,000 m².


Chapter 6 – Working with Measurements 159

Volume Volume is space as expressed in cubic measure. It represents three dimensions of an object: length, width, and height. See Figure 6-6.

Volume VOLUME V = l × w ×h where V = volume l = length w = width h = height U.S. CUSTOMARY SYSTEM V= l×w×h V = 14 × 3 × 1 2 V = 21 cu in.

7.62 cm

14 1 2

LENGTH 1.27 cm WIDTH

HEIGHT 35.56 cm

3

METRIC SYSTEM V= l×w×h V = 35.56 × 7.62 × 1.27 V = 344.13 cm 3

Figure 6-6. Volume is space expressed in cubic measure.

In the U.S. customary system, the common units for expressing volume are cubic inch (cu in.), cubic foot (cu ft), and cubic yard (cu yd). To express volume in the metric system, a superscript “3” is added to the unit used for expressing length, such as in cubic meters (m3).

In the construction trades, the term “yard” is often used to mean “cubic yard”, such as when measuring the volume of concrete or soil.

Copper tubing can carry a specific volume of water depending on its diameter and length.


160 PRACTICAL MATH

Capacity Capacity is the maximum volume that a container can hold. See Figure 6-7. The U.S. customary system uses two types of measurement for capacity: liquid measure and dry measure. Liquid measure consists of measurements such as gallons (gal.), quarts (qt), and pints (pt) and pecks (pk). Dry measure consists of measurements such as bushels (bu). In the metric system, there is only one measurement for capacity, liters (L). Capacity 1 gal. OR 3.785 L 1 bu OR 35.239 L

LIQUID MEASURE

DRY MEASURE

Figure 6-7. Capacity is the maximum volume that a container can hold.

Weight and Mass Weight is a measurement that indicates the heaviness of an object. See Figure 6-8. The U.S. customary system uses avoirdupois weight for objects such as grain, livestock, meats, and groceries. Common units of avoirdupois weight are the ton (t), pound (lb), and ounce (oz). Precious materials such as diamonds, gold, and silver are measured by mass. Mass is the amount of matter contained in an object. The troy system uses grains, penny weights, troy ounces, and troy pounds to measure precious metals. The metric system uses mass, not weight, to measure objects. Common units are the gram (g) and kilogram (kg). Weight and Mass

OAT S

50 lb (weight) 22.7 kg (mass)

Figure 6-8. Weight is the heaviness of an object, and mass is the amount of matter contained in an object.

A troy ounce is 10% heavier than an avoirdupois ounce. Yet, a troy pound weighs (12 oz) less than an avoirdupois pound (16 oz).


Chapter 6 – Working with Measurements 161

Temperature Temperature is a measurement of an amount of heat expressed in degrees. Fahrenheit (°F) and Celsius (°C) are the two scales most often used for measuring temperature. The Fahrenheit scale is used in conjunction with the U.S. customary system of measurement, and the Celsius scale is used in conjunction with the metric system. Other types of temperature scales use absolute zero as a base. Absolute zero is a theoretical condition where no heat A gauge may display both English and metric units. is present. Rankine (°R) is the absolute temperature scale that relates to Fahrenheit. Kelvin (K) is the absolute temperature scale that relates to Celsius. Absolute scales are typically only used in calculations involving gas laws.

SECTION 6-2

CONVERTING UNITS OF MEASURE

Converting units within a measurement system or to units in another system is often necessary. For example, it may be necessary to convert feet to inches, or it may be necessary to convert kilometers to miles. Addition, subtraction, multiplication, and division can only be performed if common units of measure are determined. Common units of measure are determined through the use of a conversion factor. A conversion factor is a number that translates one unit of measure into another unit of measure of the same value. The conversion factor is typically the number of smaller units within 1 larger unit of measure, such as 8 oz in 1 cup.

Conversion factors can either be memorized or taken from conversion tables.

Converting to Lower Units of Measure To convert a higher unit of measure to a lower one requires multiplying the higher unit of measure by the conversion factor. For example, to convert 3 ft, 5 in., 3 is multiplied by the conversion factor 12, the number of inches in 1 ft (3 × 12 = 36). In this case, the remaining inches, because they are common units, can be added (36 in. + 5 in. = 41 in.). When converting multiple units of measure, each unit must be converted separately. For example, to convert 2 m, 73 cm, 6 mm to millimeters, the number of centimeters in a meter (100) must be used as the first conversion factor, and the number of millimeters in a centimeter (10) as the second conversion factor. See Figure 6-9.


162 PRACTICAL MATH

Converting to Lower Units of Measure 2 m, 73 cm, 6 mm = 2736 mm

3 ft, 5 in. = 41″ HIGHER UNIT OF MEASURE

HIGHER UNIT OF MEASURE

FIRST CONVERSION FACTOR (NUMBER OF CENTIMETERS IN A METER) NEXT HIGHEST UNIT OF MEASURE

CONVERSION FACTOR (NUMBER OF INCHES IN A FOOT)

SECOND CONVERSION FACTOR (NUMBER OF MILLIMETERS IN A CENTIMETER)

1

3 × 12 = 36

1

2 × 100 = 200

3

273 × 10 = 2730

2

36 + 5 = 41

2

200 + 73 = 273

4

2730 + 6 = 2736

COMMON UNITS

COMMON UNITS

COMMON UNITS

1 MULTIPLY HIGHER UNIT BY CONVERSION FACTOR.

1 MULTIPLY HIGHER UNIT BY FIRST CONVERSION FACTOR.

2 ADD COMMON UNITS.

2 ADD COMMON UNITS. 3 MULTIPLY NEXT HIGHEST UNIT BY SECOND CONVERSION FACTOR. 4 ADD COMMON UNITS.

Figure 6-9. Converting a higher unit of measure to a lower one requires multiplying the higher unit of measure by the conversion factor.

Examples — Converting to Lower Units of Measure 1. Convert 6 mi, 116 yd, 2 ft to feet. ANS: 32,030′ 1 Multiply 6 by 1760, the number of yards in a mile (6 × 1760 = 10,560). 2 Add 10,560 and 116 (10,560 + 116 = 10,676). 3 Multiply 10,676 by 3, the number of feet in a yard (10,676 × 3 = 32,028). 4 Add 32,028 and 2. 1

6 × 1760 = 10,560

2

10,560 + 116 = 10,676

3

10,676 × 3 = 32,028

4

32,028 + 2 = 32,030

QUICK REFERENCE •

2. Convert 7 gal., 3 qt, 1 pt to pints. ANS: 63 pt 1 Multiply 7 by 4, the number of quarts in a gallon (7 × 4 = 28). 2 Add 28 and 3 (28 + 3 = 31). 3 Multiply 31 by 2, the number of pints in a quart (31 × 2 = 62 pt). 4 Add 62 and 1. 1

7 × 4 = 28

2

28 + 3 = 31

3

31 × 2 = 62

3. Convert 134 kg to grams. ANS: 134,000 g 1 Multiply 134 by 1000, the number of grams in a kilogram. 1

134 × 1000 = 34,000

4

Multiply higher unit of measure by conversion factor.

62 + 1 = 63


Chapter 6 – Working with Measurements 163

MATH EXERCISES — Converting to Lower Units of Measure ����������������������

1. Convert 244 sq yd to square inches.

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2. Convert 25 t, 70 lb to pounds.

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3. Convert 555 cm to millimeters.

PRACTICAL APPLICATIONS — Converting to Lower Units of Measure ����������������������

4. Agriculture: How many square feet does ¹⁄₂ acre contain?

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5. Construction: The length of a wall is 6 ft, 6 in. What is the length in inches?

Converting to Higher Units of Measure Converting a lower unit of measure to a higher one requires dividing the lower unit of measure by the conversion factor. For example, to convert 48 ft to yards, 48 is divided by the conversion factor 3, the number of feet in 1 yd (48 ÷ 3 = 16 yd). See Figure 6-10. Since division is the operation used when converting to higher units of measure, a remainder may occur. In this case, the units are seen more clearly when long division is used. For example, to convert 765 pints to gallons, the number of pints in a quart (2) must be used as the first conversion factor, and the number of quarts in a gallon (4) as the second conversion factor.


164 PRACTICAL MATH

Converting to Higher Units of Measure 48 ft = 16 yd CONVERSION FACTOR (NUMBER OF FEET IN A YARD)

16 3

382 2

48 3

LOWER UNIT OF MEASURE

765 pt = 95 gal., 2 qt, 1 pt

FIRST CONVERSION FACTOR (NUMBER OF PINTS IN A QUART)

LOWEST UNIT OF MEASURE

18 18

REMAINDER (PINTS)

0 1

765 6 16 16 05 4

SECOND CONVERSION FACTOR (NUMBER OF QUARTS IN A GALLON)

95 4

NEXT LOWEST UNIT OF MEASURE REMAINDER (QUARTS)

1

2

1

1 DIVIDE LOWER UNIT OF MEASURE BY CONVERSION FACTOR.

382 36 22 20 2

1 DIVIDE LOWEST UNIT OF MEASURE BY FIRST CONVERSION FACTOR. 2 DIVIDE SECOND LOWEST UNIT OF MEASURE BY SECOND CONVERSION FACTOR.

Figure 6-10. Converting a lower unit of measure to a higher unit requires dividing the lower unit of measure by the conversion factor.

Examples — Converting to Higher Units of Measure 1. Convert 2000 cu in. to cubic feet. ANS: 1 cu ft, 272 cu in. 1 Divide 2000 by 1728, the number of cubic inches in a cubic foot (2000 ÷ 1728 = 1 with a remainder of 272 cu in.). 1

QUICK REFERENCE

1 1728 2000 1728 272

Divide lower unit of measure by conversion factor.

2. Convert 49,062 sq ft to acres. ANS: 1 A, 611 sq yd, 3 sq ft 1 Divide 49,062 by 9, the number of square feet in a square yard (49,062 ÷ 9 = 5451 with a remainder of 3 sq ft). 2 Divide 5451 by 4840, the number of square yards per acre (5451 ÷ 4840 = 1 with a remainder of 611 sq yd). 1

2

5451 9 49,062 45 40 36 46 45 12 9 3

1 4 8 40 5451 4840 611


Chapter 6 – Working with Measurements 165

3. Convert 50,000 L to kiloliters. ANS: 50 kL 1 Divide 50,000 by 1000, the number of liters in a kiloliter. 1

50 1 0 0 0 50,000 5000 00

MATH EXERCISES — Converting to Higher Units of Measure ����������������������

1. Convert 1507 pt to gallons.

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2. Convert 375 mm to centimeters.

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3. Convert 17,000 ft to miles. (Round to the tenths place.)

PRACTICAL APPLICATIONS — Converting to Higher Units of Measure ����������������������

4. Electrical: A standard length of rigid metal conduit (RMC) is 120″. What is the standard length of RMC in feet?

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5. Electrical: A print specifies that 250 patch cords, 36″ each, be installed in the telecommunications closet of a building. Because the manufacturer sells the patch cords in 1′ lengths, the installer must convert inches to feet. How many 1′ patch cords does the installer need?


166 PRACTICAL MATH

Converting Between Measurement Systems Converting units between measurement systems is basically the same as converting units within a measurement system. U.S. customary and metric measurements are typically converted by using the standard number of smaller units within 1 larger unit as the conversion factor. For example, to convert 3 centimeters to inches, the number of centimeters in an inch (2.54) must be determined. This number can be memorized or taken from a conversion table. Then, since a larger unit of measure is sought (inches are larger than centimeters), the 3 is divided by the conversion factor 2.54 (3 ÷ 2.54 = 1.18 in.). See Figure 6-11.

MASTER MATH® Converting Metric Measurements to U.S. Customary Measurements

Converting Metric Measurements to U.S. Customary Measurements

LENGTH

Metric Unit

U.S. Customary Equivalent

kilometer meter

0.62 mi 39.37″, 3.281′

centimeter

0.39″

millimeter

0.039″

squar e kilometer AREA

0.3861 sq mi

hectare squar e centimeter

VOLUME

2 .47 A 0.155 sq in.

cubic centimeter

0.061 cu in.

cubic meter

1 .307 cu yd cubic

CAPACITY

MASS AND WEIGHT

dry

liquid

kiloliter

1.31 cu yd

liter milliliter

61.02 cu in. 0.908 qt 1.057 qt 0.061 cu in. 0.27 fl dr 2.2046 lb 0.03527 oz

kilogram gram

Figure 6-11. A conversion table can be used to find the U.S. customary equivalents for metric measurements.

To convert 5 miles to kilometers, the number of kilometers within each mile (1.609) must be determined. Then, since a smaller unit of measure is sought (kilometers are shorter than miles), the 5 is multiplied by the conversion factor 1.609 (5 × 1.609 = 8.045 km). See Figure 6-12.

To convert a number to a higher unit of measure, divide. To convert a number to a lower unit of measure, multiply.


Chapter 6 – Converting Measurements

MASTER MATH®

Converting U.S. Customary Measurements to Metric Measurements U.S. Unit LENGTH

AREA

0.9144 m

foot

30.48 cm

inch

2.54 cm 2. 59 0 km2

a cr e

0.405 hectare, 4047 m2

sq ua re ya rd

0.836 m2

sq ua re foot

0.093 m 2

square inch

6.452 cm 2

cubic ya rd

0.765 m 3

cu bi c fo ot

0.028 m3

cu bi c inc h

16 .3 87 cm3

gallon

3.785 L

quar t

0.946 L

pint

0.473 L

fluid ounce

29.573 mL

bus he l

3 5. 23 9 L

avoirdupois

WEIGHT

1.609 km

ya rd

s qu ar e m il e

U.S. dry measure

CAPACITY

U.S. liquid measure

VOLUME

Converting U.S. Customary Measurements to Metric Measurements

Metric Equivalent

mile

p eck

8. 81 0 L

quar t

1.101 L

pint

0.551 L

pound

0.454 kg

ounce

167

28.350 g

Figure 6-12. A conversion table can be used to find the metric equivalents for U.S. customary measurements.

Examples — Converting Between Measurement Systems 1. Convert 12 kg to pounds. ANS: 26.43 lb 1 Divide 12 by 0.454, the number kilograms in a pound. 1

12 ÷ 0.454 = 26.43

QUICK REFERENCE •

Multiply or divide by the conversion factor.

2. Convert 6 ft, 3 in. to centimeters. ANS: 190.5 cm 1 Multiply 6 ft by 12, the number of inches in a foot (6 × 12 = 72). 2 Add 72 and 3 (72″ + 3″ = 75″). 3 Multiply 75 by 2.54, the number of centimeters in an inch. 1

6 × 12 = 72 3

2

72 + 3 = 75

75 × 2.54 = 190.5

3. Convert 6 sq mi to square kilometers. ANS: 15.54 km² 1 Multiply 6 sq mi by 2.590, the number of square kilometers in a square mile. 1

6 × 2.590 = 15.54


168 PRACTICAL MATH

MATH EXERCISES — Converting Between Measurement Systems (Round to the tenths place.) ����������������������

1. Convert 6 L to quarts.

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2. Convert 1500 g to ounces.

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3. Convert 3 pt to liters.

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4. Convert 11 oz to grams.

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5. Convert 5 m to inches.

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6. Convert 58 km to miles.

PRACTICAL APPLICATIONS — Converting Between Measurement Systems ����������������������� 7. Electrical: An electrical engineer specifies that 16′ rigid metallic conduit (RMC) be installed from the control box of a plastic injection molding machine to a plant’s power source. Because the molding machine is being installed where the metric system is used, the installer must convert feet to centimeters. How long is the conduit in centimeters? (Round to the tenths place.)


Chapter 6 – Working with Measurements 169

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8. HVAC: The ductwork to a furnace must be reworked. The existing filter (18″ × 24″) is 432 sq in. in size. Replacement racks and filters are rated in square meters. How many square meters must the filter be to offer the same resistance to flow as the original filter? (Round to the hundredths place.)

Converting Temperature When temperature is converted between scales, two things are considered: the difference in a common point on both the scales and the ratio between the scales. The common point chosen between the Fahrenheit and Celsius scales is the freezing point of water, 32°F and 0°C. Thus the difference is 32. The ratio between the scales is determined from the range of degrees from freezing to boiling on both scales, 32°F to 212°F and 0°C to 100°C. The difference in each range provides the ratio: 180:100, or 1.8. This means there is 1.8 degrees on the Fahrenheit scale for every 1 degree on the Celsius scale. To convert Fahrenheit to Celsius, subtract 32 from the Fahrenheit reading and divide by 1.8. To convert Celsius to Fahrenheit, multiply the Celsius reading by 1.8 and add 32. See Figure 6-13. Converting Temperature °F

0 32

212

392

°C

0

100

200

CONVERT 221 F TO C

C=( F 32) 1.8 C = (221 32) 1.8 C = 189 1.8

CONVERT 105 C TO F

F = (1.8 × C ) + 32 F = (1.8 × 105) + 32 F = 189 + 32 F = 221°F

C = 105°C FAHRENHEIT TO CELSIUS CONVERSION

CELSIUS TO FAHRENHEIT CONVERSION

Figure 6-13. Temperature conversion between Fahrenheit and Celsius is frequently performed.


170 PRACTICAL MATH

MATH EXERCISES — Converting Temperature ����������������������

1. Convert 190°C to °F.

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2. Convert 167°C to °F.

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3. Convert 29°C to °F.

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4. Convert 180°F to °C.

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5. Convert 37°F to °C.

PRACTICAL APPLICATIONS — Converting Temperature ����������������������

6. Electrical: NEC® Table 310.15(B)(16) permits THW Cu conductor to be installed in an ambient temperature of 75°C. What is the temperature in °F?

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7. HVAC: The recommended comfort zone for one-family dwellings is 68°F to 72°F during the daytime. What is the comfort range in °C?

SECTION 6-3

ADDING AND SUBTRACTING UNITS OF MEASURE

For units of measure to be added and subtracted, the units must be common. If the units of measure are not common, they must be converted. For example, 6 centimeters and 2 inches cannot be added, but 6 centimeters and 5.08 centimeters can, or 2.36 inches and 2 inches can.


Chapter 6 – Working with Measurements 171

Multiple units of measure are added or subtracted one unit at a time. For example, to add 3 gal., 2 pt, 12 gal., and 1 pt, the gallons are added first, then the pints, for a sum of 15 gal., 3 pt. See Figure 6-14.

Adding and Subtracting Units of Measure 2 lb, 4 oz 3 lb, 5 oz 5 lb, 9 oz

+

8 sq ft, 3 sq in. – 7 sq ft, 3 sq in. 1 sq ft, 0 sq in.

1

1 ADD EACH UNIT OF MEASURE SEPARATELY.

1 SUBTRACT EACH UNIT OF MEASURE SEPARATELY.

CONVERSION FACTOR (NUMBER OF FEET IN A YARD)

356 yd, 2′ + 29 yd, 2′ 385 yd, 4′

3

1

1 4 3

1

54 gal., 1 qt, 1 pt – 21 gal., 2 qt, 1 pt 32 gal., 3 qt, 0 pt

1

REMAINDER (FEET)

385 yd + 1 yd + 1′ =

2 5

53

2 3

1

3

386 yd, 1′

1 ADD EACH UNIT OF MEASURE SEPARATELY.

1 BORROW 1 WHOLE UNIT FROM NEXT HIGHEST COLUMN.

2 DIVIDE BY CONVERSION FACTOR.

2 CONVERT TO COMMON UNITS.

3 ADD COMMON UNITS. ADD REMAINDER.

3 SUBTRACT EACH UNIT OF MEASURE SEPARATELY.

Figure 6-14. For units of measure to be added and subtracted, the units must be common.

Examples — Adding and Subtracting Units of Measure 1. Add 15 mi, 45 yd, 2′ and 3 mi, 89 yd, 2′. ANS: 18 mi, 135 yd, 1′ 1 Add the miles. 2 Add the yards. 3 Add the feet. 4 Convert the 4′ to 1 yd, 1′. 5 Add common units. 15 mi, 45 yd, 2′ + 3 mi, 89 yd, 2′ 18 mi, 134 yd, 4′ 1 5

2

3

4

1 3 4 3 1

18 mi, 134 yd + 1 yd, 1′ = 18 mi, 135 yd, 1′

QUICK REFERENCE • •

Add or subtract each unit separately. Convert as required.


172 PRACTICAL MATH

2. Subtract 1 gal., 2 qt from 6 gal., 1 qt. ANS: 4 gal., 3 qt 1 Borrow 1 gal. from the 6 gal. (6 gal., 1 qt = 5 gal., 5 qt). 2 Subtract the gallons. 3 Subtract the quarts. 1 5

5

6 gal., 1 qt – 1 gal., 2 qt

4 gal., 3 qt 2

3

MATH EXERCISES — Adding and Subtracting Units of Measure ����������������������

1. Subtract 4 yd, 2′, 10″ from 15 yd, 2′, 7″.

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2. Add 2′-10″, 9″, 2′-7″, and 11′-6″.

PRACTICAL APPLICATIONS — Adding and Subtracting Units of Measure ����������������������

3. Mechanics: How much oil was removed from the second drum? 55 gal. 21 gal., 2 qt, 1 pt

OIL DRUMS

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4. Agriculture: What is the perimeter of the stable?

70′-0″

115′-10″ STABLE

192′-6″

65′-3″


Chapter 6 – Working with Measurements 173

SECTION 6-4

MULTIPLYING AND DIVIDING UNITS OF MEASURE

Units of measure are easy to multiply and divide. In calculations involving multiple units of measure, each unit is multiplied or divided separately. Conversion is performed as necessary. See Figure 6-15.

Multiplying and Dividing Units of Measure CONVERSION FACTOR (NUMBER OF PINTS IN A QUART)

5 gal., 1 qt, 1 pt × 2 10 gal., 2 qt, 2 pt

REMAINDER (PINTS)

1 2 2

2

2

10 gal., 2 qt + 1 qt =

CONVERSION FACTOR (NUMBER OF INCHES IN A FOOT)

2

2 × 12 = 24

1

0

1

3

9 yd, 2′, 3″ ÷ 3 1″

9 yd, 24″, 3″ ÷ 3 3 yd, 8″, 1″ =

10 gal., 3 qt

3 yd, 9″

3 1 MULTIPLY EACH UNIT OF MEASURE SEPARATELY.

1 DIVIDE EACH UNIT OF MEASURE SEPARATELY.

2 CONVERT TO HIGHER UNITS (IF NECESSARY).

2 CONVERT TO LOWER UNITS (IF NECESSARY).

3 ADD COMMON UNITS.

3 ADD COMMON UNITS.

Figure 6-15. In multiple units of measure, each unit is multiplied or divided separately, and conversion is performed as necessary.

Examples — Multiplying and Dividing Units of Measure 1. Multiply 12 cu yd, 24 cu ft by 3. ANS: 38 cu yd, 18 cu ft 1 Multiply 12 cu yd by 3. 2 Multiply the 24 cu yd by 3. 3 Convert 72 cu ft to cubic yards (72 cu ft ÷ 27 = 2 cu yd, 18 cu ft). 4 Add common units. 12 cu yd, 24 cu ft × 3 36 cu yd, 72 cu ft 1 4

3

2 27 72 54 18

2

36 cu yd + 2 cu yd, 18 cu ft = 38

cu yd, 18 cu ft

QUICK REFERENCE • •

Multiply or divide each unit of measure separately. Convert as required.


174 PRACTICAL MATH

2. Divide 12 yd, 2′, 6″ by 3. ANS: 4 yd, 10″ 1 Divide 12 yd by 3. 2 Convert 2′ to inches (2 × 12 = 24). 3 Divide 24″ by 3. 4 Divide 6″ by 3. 5 Add common units. 2

12 yd, 24″, 6″ ÷ 3

2′ × 12 = 24″

4 yd, 8″, 2″ = 4 yd, 10″ 1

3

4

5

CALCULATOR Divide 12 yd, 2 ft, 6 in. by 3. 1. Type 12. Press the 2. Type 3. Press the

÷ =

key. key.

3. Calculator displays 4. Type 2. Press the

4. ×

5. Type 12. Press the

key.

=

key.

6. Calculator displays 7. Press the

+

24 .

key.

8. Type 6. Press the

=

key.

9. Calculator displays 10. Press the

÷

30 .

key.

11. Type 3. Press the

=

key.

12. Calculator displays

MATH EXERCISES — Multiplying and Dividing Units of Measure ����������������������

1. Multiply 4 yd, 2′, 8″ by 5.

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2. Divide 3 gal., 3 qt by 6.

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3. Multiply 18 cu ft, 9 cu in. by 2.

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4. Divide 8 cm, 7 mm by 2.

10 .


Chapter 6 – Working with Measurements 175

PRACTICAL APPLICATIONS — Multiplying and Dividing Units of Measure 5. Construction: How many cubic feet of sand can be moved in five trips with the wheelbarrow filled to a 4¹⁄₂ cu ft capacity each trip?

MAXIMUM 1 CAPACITY = 4 2 CU FT

6. Construction: A carpenter has used five 8′-long studs for the first wall of a room. Three more walls that are identical to the first wall are built. What is the total linear feet of studs used?

7. Maintenance: Three oil reservoirs for the plows of sugar centrifugals require 4 gal., 2qt of hydraulic fluid. How much hydraulic fluid is needed to fill one reservoir?

_________________________

8. Maintenance: A school custodian has 12 gal., 3 qt of paint, enough to paint one classroom. How much paint is needed for four classrooms, all the same size?

For an interactive review of the concepts covered in Chapter 6, refer to the corresponding Quick Quiz ® included on the Digital Resources.

QUICK QUIZ® Working with Measurements


176 PRACTICAL MATH


Name

Date

Math Problems 1. Convert 17′-6″ to inches.

2. Convert 7 m to millimeters.

3. Convert 20 m to kilometers.

4. Convert 40 cu yd to cubic feet.

5. Convert 3 sq mi to square kilometers.

6. Convert 46 cm to inches.

7. Convert 12 qt to liters.

8. Convert 22°C to Fahrenheit.

9. Convert 81°F to Celsius.

177


178 PRACTICAL MATH

10. Add 5 gal., 3 pt and 1 gal., 4 pt.

11. Subtract 2 L, 900 mL from 17 L, 320 mL.

12. Multiply 6 g, 15 mg by 20.

13. Divide 6 lb, 3 oz by 8.

Practical Applications __________________________ 14. Construction: A roofer needs to lay shingles on a roof that measures 30 m × 10 m. How many bundles of shingles must be ordered to complete the job? Note: 1 square or 100 sq. ft is equal to 3 bundles of shingles.

_________________________ 15. Welding: Three welds of 1′-8″ each need to be made. What is the total length of the welds?


Name

Date

Math Problems 1. Convert 512 cm to millimeters.

2. Convert 17 t to pounds.

3. Convert 1¹⁄₂ acres to square feet.

4. Convert 12 qt, 6 pt to pints.

5. Convert 473 km to meters.

6. Convert 8 mi, 27 yards, 3 ft to feet.

7. Convert 1188 sq ft to square yards.

8. Convert 121.5 cu ft to cubic yards.

9. Convert 13,550 mm to centimeters.

179


180 PRACTICAL MATH

10. Convert 128 fl oz to quarts.

11. Convert 110 km to miles.

12. Convert 19″ to centimeters.

13. Convert 16 m to inches.

14. Convert 21 m3 to cubic yards.

15. Convert 160 A to hectares.

16. Convert 10 g to ounces.

17. Convert 88°C to Fahrenheit.

18. Convert 185°F to Celsius.

19. Convert 102°F to Celsius.

20. Convert 510°C to Fahrenheit.


Chapter 6 – Working with Measurements 181

21. Add 3 mi, 302′, 7″ and 4 mi, 19′, 6″.

22. Add 14 t, 900 lb and 27 t, 1300 lb.

23. Subtract 3 yd, 2′, 8″ from 12 yd, 2′, 6″.

24. Subtract 3 t, 460 lb from 16 t, 305 lb.

25. Multiply 3 yd, 2′, 6″ by 4.

26. Multiply 8 pt, 3 fl oz by 20.

27. Divide 46′-6″ by 9.

28. Divide 25 cm, 2 mm by 12.

Practical Applications _________________________ 29. Welding: A 7 ft, 6 in. length of steel angle stock will be cut into 9 in. long pieces. How many pieces can be cut from this stock?


182 PRACTICAL MATH

__________________________ 30. HVAC: A popular size of a supply plenum is 51.5 cm × 51.5 cm × 77 cm. Convert the size of the plenum to inches.

_________________________ 31. Alternative Energy: The output of solar photovoltaic modules is typically rated at 25°C. What is this temperature in degrees Fahrenheit?

__________________________ 32. Agriculture: How many square feet does a ³⁄₄ acre lot contain?

__________________________ 33. Culinary Arts: A quart of cookie dough makes 2 dozen cookies. How many cookies can be made from 1½ gal. of cookie dough?


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